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Smock mill

A smock mill is a type of windmill characterized by a fixed, multi-sided wooden body that slopes or tapers upward in a manner resembling a farmer's smock, topped with a rotatable cap housing the sails to face the wind.^[1]^[2] This design represents an architectural advancement over earlier post mills, where the entire structure rotated; in smock mills, only the cap turns, enabling larger, more stable bodies capable of accommodating extensive machinery.^[3]^[1] Typically constructed with six or eight sides, the body is clad in horizontal weatherboarding or thatch for weatherproofing and built upon a brick or stone base to prevent rot and provide foundational support.^[2]^[3] Originating in the Netherlands in the 16th century, smock mills were used for draining marshy polders, such as the Wimmenumer Polder near Egmond aan den Hoef (first drained in 1556), and quickly became essential for land reclamation in low-lying areas.^[4] Their lightweight wooden frames suited wet terrains, and the design spread through Dutch migration to regions like England—where the first was built in 1650 at Lacey Green, Buckinghamshire—the United States (e.g., 1746 on Nantucket Island), South Africa, and North Sea coastal areas.^[3]^[4]^[5] Primarily used for grinding grain into flour, smock mills also powered water-pumping operations critical to Dutch agriculture and flood control, with the larger internal space allowing for multiple grinding stones and ancillary equipment.^[1]^[4] Thousands were constructed across Europe, particularly in the Netherlands and Kent, England, where examples like the 1814 Union Mill in Cranbrook—Britain's tallest at 72 feet (22 m)—remain operational or preserved as cultural landmarks.^[3]^[2]^[6] Today, many survive, symbolizing efficient pre-industrial engineering and the heritage of wind-powered industry.^[3]

History

Origins

The smock mill emerged in the Netherlands during the early 16th century as a significant advancement in windmill design, serving as a fixed-body alternative to the earlier post mills that required the entire structure to rotate for wind orientation. This innovation addressed the limitations of post mills by incorporating a stationary, multi-sided body topped with a rotatable cap, allowing for more stable and efficient operation.^[4] Developed from the heavier stone or brick tower mills, smock mills adapted polygonal wooden frameworks that sloped outward, facilitating easier construction and maintenance compared to masonry structures. The use of timber made these mills lighter and quicker to assemble, particularly suited to the resource constraints and engineering demands of the time. This evolution occurred primarily in response to the need for reliable drainage systems in the Netherlands' expansive lowlands.^[7] Initially designed as polder mills, smock mills were employed to pump water from low-lying areas prone to flooding, reclaiming arable land through systematic drainage. Their early adoption was driven by the region's flat terrain and high water tables, which necessitated constant water management to prevent inundation and support agriculture. The first documented smock mill dates to 1556 in the Wimmenumer Polder near Egmond aan den Hoef, marking the beginning of widespread use for hydraulic engineering.^[4] The first known examples appeared in the Dutch provinces of Holland and Zeeland during the early 16th century. These initial installations underscored the mills' role in regional water control efforts, laying the foundation for broader applications in land reclamation.^[7]

Development and Spread

In the 16th century, smock mill designs underwent significant refinements in the Netherlands, evolving from earlier tower mills to incorporate multi-story polygonal wooden structures that enhanced stability and capacity for tasks like polder drainage.^[7] These mills typically featured improved cap rotation systems, initially using inside winders but increasingly adopting outside mechanisms with tail poles and winches to more efficiently align sails with changing wind directions.^[8] Such innovations, exemplified by early examples like the 1556 mill in Wimmenumer Polder, allowed for greater operational efficiency in water management.^[4] By the 18th and 19th centuries, smock mills reached their peak usage across the Netherlands, where they powered industrial grinding of grains and materials as well as extensive water pumping for land reclamation, with approximately 9,000 to 10,000 windmills total (including a significant number of smock mills) in operation around 1850. This era marked their widespread adoption for both agricultural and proto-industrial applications, reflecting the Netherlands' reliance on wind power amid ongoing flood control needs.^[8] The design's practicality facilitated its export beyond the Netherlands, beginning in the mid-17th century with the first smock mill built in Britain in 1650 at Lacey Green, Buckinghamshire, where they were adapted primarily for local grain milling rather than drainage.^[3] This dissemination continued into the 18th century, spreading to Ireland (e.g., ~1757 at St Patrick's Tower, Dublin) and to North America via Dutch and other European immigration, particularly to regions like New England and New York, where the first was built in 1746 on Nantucket Island.^[9]^[10]^[11] The late 19th century initiated a sharp decline in smock mill usage, driven by the rise of steam-powered engines and later electrification, which offered more reliable and controllable energy sources for milling and pumping.^[12] By 1900, the number of operational mills in the Netherlands had plummeted from its mid-century peak, rendering many structures obsolete as industrial mechanization accelerated.^[12]

Design and Construction

Structure and Form

Smock mills are distinguished by their polygonal tower structure, typically featuring an octagonal base with eight sides, though variations with six or occasionally ten sides also occur to enhance stability against prevailing winds. This multi-sided design distributes structural loads evenly, allowing the mill to withstand the forces exerted by the sails without excessive bracing. The overall form resembles a smock or dress, with the body constructed as a fixed tower that supports the operational components above.^[13] The defining profile of the smock mill is its tapering shape, widest at the base and progressively narrowing upward to form a slender silhouette that culminates in the cap. This batter, or slope, typically spans four to seven stories, providing the necessary vertical space for internal arrangements while reducing wind resistance at higher elevations. The tower is erected on a solid brick or stone foundation, often one or two stories high, which firmly anchors the wooden framework to the ground and elevates the structure to protect against moisture; this fixed base sets smock mills apart from post mills, where the entire body rotates.^[14]^[15]^[16] Atop the tapering body sits the cap, a specialized roof section that encloses the sails and windshaft, enabling 360-degree rotation to align with changing wind directions. Rotation is achieved through a curb—a circular track at the tower's summit—upon which the cap pivots via rollers, often assisted by a fantail mechanism or manual winch operated from external staging for precise adjustment. Internally, the mill's floor plans are functionally divided: the ground level serves primarily as storage for raw materials like grain, while successive upper floors accommodate the mill's core components, with vertical circulation provided by ladders or narrow stairs to facilitate maintenance and operation.^[16]^[14]^[17]

Materials and Features

The primary framework of a smock mill is constructed from durable hardwoods such as oak or pitch pine, forming the cant-posts that meet at the structure's angles to support the tapering, multi-story body.^[18] These wooden elements provide the rigidity needed for the mill's height and exposure to wind loads. The base, often a single-story round house, is typically built from brick or stone to elevate the timber framework above ground level and prevent rot from moisture.^[19] Historically, the exterior of the smock is clad in horizontal weatherboarding made from pine or oak, overlapped by 90-100 mm to ensure effective wind and water resistance on the sloping surfaces. These boards were fastened with wrought-iron nails and protected with tar or linseed oil-based paint; vertical cladding appears in rare instances. In modern restorations, softwoods like red pine or western red cedar may be used, pressure-treated for durability and secured with stainless steel nails.^[20]^[2] Internally, the framework is lined with vertical boarding accompanied by cross-bracing extending throughout the height for stability.^[16] The cap, which crowns the smock, features a roof of thatch, shingles, or boards to shield the internal mechanisms, often incorporating a fantail for automatic orientation or a tailpole for manual adjustment.^[21] Doors and windows are positioned at floor levels for practical access and ventilation, while hatches in the cap and stages facilitate maintenance of sails and gearing.^[21] Structural reinforcements include robust corner posts integrated into the hardwood framing and diagonal bracing to distribute wind forces across the multi-level design.^[18]

Operation

Mechanisms

The primary mechanisms of a smock mill enable the capture and transmission of wind power from the sails to internal machinery, typically for driving millstones or pumps, while allowing the fixed body to remain stationary as only the cap rotates. The sails, mounted on a horizontal windshaft, convert wind energy into rotational motion, which is then transferred via gearing to a vertical upright shaft running through the mill's stages. This setup contrasts with post mills, where the entire structure turns, and relies on precise components for efficiency and control.^[22] Sails on smock mills are usually arranged in sets of four for balanced rotation, attached to a central windshaft that extends from the cap. Common sails consist of fixed wooden lattices covered in canvas, providing basic operation, while patent sails feature adjustable shutters that can be opened or closed via a striking mechanism to optimize performance in varying winds; these shutters, typically three per bay across eight or nine bays per sail, allow for finer control without stopping the mill. The windshaft, often cast iron in later designs, supports the sail stocks and connects directly to the brake wheel, rotating at 12 to 15 revolutions per minute under typical conditions.^[23]^[22] To keep the cap and sails facing the wind, smock mills employ cap-turning mechanisms, either manual or automatic. Manual systems use a chain and wheel operated from the ground, winding the cap via a curb gear around the mill's top. Automatic turning is achieved with a fantail, consisting of smaller sails or vanes mounted at the rear of the cap at right angles to the main sails; when the wind shifts, the fantail rotates, engaging gears—often a pinion and rack system—to turn the cap into the wind without human intervention. This fantail, usually six- or eight-bladed, ensures continuous operation and was a key innovation for fixed-body mills like smocks.^[24]^[13] Power transmission occurs through a series of gears connected to the windshaft. The brake wheel, a large horizontal gear (typically 8 to 11 feet in diameter with wooden clasp-arm construction and cogs), is fixed to the windshaft and engages a smaller vertical wallower mounted on the top of the upright shaft. This wallower drives the upright shaft downward, where a great spur wheel (around 6 to 7 feet in diameter, often with an iron cog band) at the meal floor level transfers power horizontally to stone nuts or other machinery. These components step up the slow sail rotation to the higher speeds needed for grinding, with gear ratios typically 2:1 to 4:1 between brake wheel and wallower, and overall gearing to millstones much higher (e.g., 20:1 or more).^[22]^[25]^[26] The brake system provides control and stopping capability, consisting of a wooden band or rim surrounding the brake wheel, tightened by a lever to create friction and halt rotation. This brake, operated from the cap or upper floor, prevents overrun and allows safe maintenance; in some designs, it integrates with iron components for durability.^[22] The upright shaft, a vertical wooden or iron rod running the height of the mill, serves as the central power conduit from the wallower to lower floors. To engage machinery without rotating the entire body, quants—long wooden rods connected to the great spur wheel—extend horizontally to drive individual stone nuts or pumps on different levels; these quants, often 6 to 7 feet long and jointed for adjustment, allow selective powering of two or more pairs of millstones, for example in grain grinding, while keeping the mill body fixed.^[25]^[27]

Uses

Smock mills were predominantly employed for grain milling, utilizing the rotational energy from the sails to drive an upright shaft connected to pairs of millstones that ground wheat, corn, or barley into flour or meal. Output varied based on the quality of grain input, number of stone pairs, and consistent wind availability.^[28]^[13] In regions prone to flooding, such as the Netherlands and eastern England, smock mills served critical drainage and pumping functions, employing Archimedes screws or scoop wheels at the base to remove excess water from low-lying lands and polders, thereby enabling agriculture in wetlands. These mechanisms could lift water 1 to 2 meters per revolution of the shaft, facilitating land reclamation on a scale essential for expanding arable territory.^[8]^[29] During the 19th century, many smock mills were adapted for industrial applications, including sawing timber with reciprocating blades powered by the main shaft, pressing oil from seeds like rapeseed or linseed.^[30]^[31] Some smock mills incorporated multi-purpose designs, featuring multiple floors or auxiliary drives to combine grain grinding on upper levels with oil pressing or pumping operations below, allowing operators to diversify output based on local economic needs.^[32] The efficiency of smock mills in these roles hinged on wind speeds between 5 and 15 meters per second for optimal power generation, with adjustable sail configurations—such as common sails or patent shutters—enabling adaptation to variable loads and gusts to maintain consistent operation.^[33]^[34]

Comparison with Other Windmills

Tower Mills

Tower mills feature a fixed cylindrical body constructed primarily from stone or brick, with only the cap rotating to orient the sails into the wind. This design developed in Europe during the late 13th to early 14th century, predating the smock mill by several centuries and marking a significant advancement over earlier post mills by allowing for larger, more stable structures.^[35] In contrast to smock mills, which employ lighter wooden frameworks, tower mills require substantial masonry work that extends construction timelines from months for wooden builds to years for stone towers, though this results in greater long-term durability, particularly against high winds. Both types share similar internal gearing systems for power transmission, but smock mills facilitate easier access for repairs through integrated wooden staging platforms that encircle the body, enabling millers to reach sails and mechanisms without extensive scaffolding.^[36]^[37]^[38] Smock mills offer advantages over tower mills in the portability of their modular wooden design, which supported export to regions like North America by Dutch migrants seeking efficient drainage solutions. However, this wood-based construction demands higher maintenance to prevent rot and weathering, unlike the more resilient stone towers. Historically, smock mills emerged in the early 16th-century Netherlands as a cost-effective wooden alternative to the expensive stone tower mills, particularly suited to the flat, flood-prone terrains requiring rapid deployment for water management.^[4]^[3]

Post Mills

Post mills represent the earliest form of European windmill, emerging in the late 12th century in regions such as northern France, eastern England, and Flanders.^[39] These structures feature an entire mill body mounted on a single central vertical post, allowing the whole superstructure—including sails, machinery, and buck (the main body)—to rotate fully around the post to orient the sails into the prevailing wind.^[40] This design, often supported by an open trestle or later a roundhouse for protection, enabled basic grain milling but was constrained by its single-story configuration and reliance on manual adjustment via a tail pole or ladder.^[41] In contrast to smock mills, which employ a fixed, multi-storied base for enhanced stability and power output, post mills maintain a predominantly single-story, ground-level rotatable design that inherently limits their scale and capacity.^[40] Smock mills, with their sloping, polygonal wooden towers typically clad in weatherboards, provide greater vertical space and structural rigidity, supporting larger sails and more extensive internal machinery for increased productivity.^[39] This fixed-base architecture in smock mills allows for taller constructions that harness stronger winds at height, whereas post mills' compact, fully pivoting form restricts expansion and exposes the mechanism to ground-level vulnerabilities like weathering.^[42] Operationally, post mills demand labor-intensive manual turning of the entire body to face the wind, often requiring teams of workers to push or lever the structure, which proves inefficient during frequent wind shifts.^[40] Smock mills mitigate this by rotating only the cap—housing the sails—via mechanisms like a fantail or winch, streamlining adjustments and reducing physical effort for operators.^[42] While smock mills offer superior capacity for industrial applications such as drainage or advanced milling due to their expansive interiors and efficiency, their immobility—tied to a permanent base—hinders relocation compared to the more portable post mills, which could be dismantled and reassembled at new sites with relative ease.^[39] The development of smock mills in the early 16th century, particularly in the Netherlands, directly addressed the scaling limitations of post mills amid rising demands for mechanized processing in the 14th and 15th centuries, evolving as a more robust alternative that prioritized fixed efficiency over full-body mobility.^[39] By superseding post mills in many areas through the 16th century and beyond, smock designs facilitated greater industrial output, though post mills persisted in simpler rural settings until the 19th century.^[41]

Geographical Distribution

Netherlands and Low Countries

The smock mill originated in the Netherlands during the early 16th century, evolving from earlier tower mill designs to better suit the flat, waterlogged landscapes of the Low Countries. This innovation allowed for more efficient drainage in polder regions, where much of the land lies below sea level. As of 2025, the Netherlands preserves approximately 1,200 historic windmills, with smock mills forming a substantial portion due to their prevalence in water management systems. These mills are particularly concentrated in areas like the Kinderdijk-Elshout region in South Holland, a UNESCO World Heritage Site featuring 19 interconnected drainage mills, including 10 octagonal smock mills that exemplify 18th-century engineering for collective water control.^[8]^[43]^[44] From the 16th to the 19th centuries, smock mills played a pivotal role in the Netherlands' land reclamation efforts, pumping excess water from low-lying areas to create arable farmland. This process was essential for expanding agriculture in a country where approximately 20% of the land has been reclaimed from the sea or lakes through such hydraulic innovations. Without these mills, vast polders—reclaimed fields that now support dairy farming, tulip cultivation, and other crops—would remain submerged, underscoring the smock mill's contribution to the nation's economic and demographic growth during the Dutch Golden Age and beyond.^[45]^[44] In Belgium and the surrounding Low Countries, smock mills are less numerous but share a similar emphasis on drainage, particularly in the Flemish provinces where water management challenges mirror those in the Netherlands. Examples include the Napoleon Mill in Limburg, built in 1804 as the oldest stone smock mill in the region, originally used for grain and oil milling alongside water pumping. Other preserved specimens, such as the 18th-century octagonal smock mill at the Bokrijk Open Air Museum in Flanders, highlight regional adaptations for local agriculture and flood control, though their overall count remains far lower than in the Netherlands.^[46]^[47] Preservation initiatives in the Netherlands gained momentum in the 1920s through organizations like De Hollandsche Molen, founded in 1923 to combat the rapid decline of mills due to industrialization and steam power. This society provides expert guidance on restoration, maintenance, and legal protection, resulting in the safeguarding of hundreds of structures as national monuments. Approximately 50% of surviving smock mills are now operational, often powered by wind for educational demonstrations and tourism, ensuring their cultural legacy endures.^[48]^[49] Notable examples include the smock mills of Schiedam in South Holland, renowned as the tallest traditional windmills in the world, with heights reaching up to 40 meters to capture stronger winds for industrial grinding. Built primarily in the 18th and 19th centuries, these eight surviving mills—such as De Noord at 33.3 meters—were crucial for processing grain into flour for the local gin industry and, in some cases, pigments for paint production, reflecting the versatile economic role of smock mills in urban settings.^[50]^[51]

Britain and Ireland

Smock mills were introduced to Britain from the Netherlands in the mid-17th century, with the first built in 1650 at Lacey Green, Buckinghamshire, but gained widespread adoption in the late 18th century, particularly in East Anglia, where they were constructed primarily for corn milling to meet growing demand for flour during the Industrial Revolution.^[52] By the early 19th century, numerous examples had been built across the region, with adaptations such as roundhouses added at the base for storing grain sacks and machinery, enhancing their efficiency in rural settings.^[3] These mills featured timber-framed, weatherboarded structures with a rotating cap, allowing operators to face the sails into the prevailing winds without turning the entire body. In Ireland, smock mills were far less common, with only a handful constructed, mainly in the eastern counties around Dublin for grinding grain or malt in industrial applications.^[53] One prominent example is St. Patrick's Tower in Dublin, built around 1757 as one of Europe's tallest smock windmills to power the Thomas Street Distillery by grinding malted barley; its octagonal, weatherboarded tower resembled a farmer's smock, and it operated until the early 19th century when steam replaced wind power.^[54] Notable surviving examples in Britain include Upminster Mill in Essex, constructed in 1803 as a four-storey octagonal smock mill for local farmer James Nokes, which ground corn until the 1930s and has since been restored to working order, recognized as one of the finest remaining specimens due to its completeness and historical mechanisms.^[55] A rare hexagonal variant is Impington Mill in Cambridgeshire, built in 1776 on a brick base and raised in the 1850s, featuring an ogee cap and used for corn until 1930; its unique six-sided design highlights regional variations in smock mill architecture.^[56] The decline of smock mills accelerated in the early 20th century, with most abandoned by the 1910s as steam engines, roller mills, and electrification rendered wind power obsolete for commercial grinding.^[57] Preservation efforts began in earnest with the Society for the Protection of Ancient Buildings (SPAB), whose Mills Section was established in 1931 to advocate for repairs and oppose conversions, leading to around 40 operational traditional windmills as of 2025, including several restored smock types maintained through grants and volunteer work.^[58] These mills now serve educational and demonstrative purposes, with organizations like SPAB providing technical guidance to ensure authentic restorations. Smock mills hold significant cultural value in Britain and Ireland as enduring symbols of industrial heritage and rural ingenuity, evoking the pre-industrial landscape in art and literature.^[57] Writer Hilaire Belloc, who owned and operated a smock mill in Sussex from 1905, immortalized them in essays like those in Hills and the Sea (1906), portraying them as emblems of traditional craftsmanship amid modernization.^[59] In visual arts, they appear in romantic depictions of the countryside, reinforcing their role in national identity and heritage tourism.

North America

Smock mills arrived in North America during the 18th and early 19th centuries, introduced primarily by Dutch and British settlers who brought the design from Europe to support grain milling in the Northeast.^[60] These mills were constructed in limited numbers, with concentrations in areas like Long Island, New York, and Nantucket, Massachusetts, where they served local agricultural communities by grinding corn and wheat.^[61] In the United States, notable surviving examples include the Old Mill in Nantucket, Massachusetts, built in 1746 as a smock-type windmill and recognized as the oldest operating example in the country, featuring original wooden components and a sloped, weatherboarded tower. The Beebe Windmill in Bridgehampton, New York, constructed around 1820, represents a transitional design with cast-iron gearing and a stone foundation, highlighting early American adaptations for durability.^[62] Rarer hexagonal variants exist, such as those documented among Long Island's historic mills, which deviate from the more common octagonal form and were built for efficiency on smaller sites.^[63] Fewer intact examples remain in Massachusetts and Rhode Island due to land development and natural decay, though the Jamestown Windmill in Rhode Island, dating to 1775, preserves the smock style with hand-hewn timbers.^[64] In Canada, smock mills were even scarcer, largely confined to Mennonite settlements in the late 19th and early 20th centuries, with Ontario hosting limited operational or restored sites. The Hykaway Grist Mill, originally built around 1910 near Fraserwood, Manitoba, but associated with Ontario-style Mennonite milling traditions, exemplifies this sparse distribution and was relocated to a museum for preservation.^[65] Another example is the Folmar Mill in Bayfield, Ontario, a smock mill reflecting immigrant influences, though many Canadian instances are replicas or relocated for heritage purposes. Preservation efforts face significant challenges from urbanization and weathering, with only about 11-15 intact smock mills surviving across the U.S. Northeast, primarily on Long Island's South Fork.^[61] Organizations like the Society for the Preservation of Old Mills (SPOOM) and the Old Mill Foundation in Nantucket lead restoration initiatives, focusing on maintaining mechanical authenticity and public access to educate on milling history.^[66]^[67] North American smock mills were often adapted on a smaller scale for individual farms, incorporating hybrid elements such as American-style iron components or simplified tower bases to suit local materials and windy coastal conditions, distinguishing them from larger European prototypes.^[62]^[11]

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[45]
It's windmill weekend: 10 things you should know about Dutch ...
May 9, 2018 · There were mustard mills, hemp mills, grain mills, snuff mills, cocoa mills, oil mills, chalk mills, paint mills and saw mills. Because of ...
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Visit the world's tallest windmills in Schiedam - Travander
May 21, 2024 · The mill itself is 42.5 meters high, and with its aerodynamic sails, it reaches a height of 55 meters.
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Post-medieval mills and milling, 1540-1750 - The Mills Archive
Sep 13, 2021 · The timber-framed and clad tower mill, popularly known as the smock mill ... In some post mills, such as at Cromer, Hertfordshire, where parts of ...
[48]
Researching the History of Mills in Britain and Ireland
Dec 12, 2013 · Smock mills, which arrived by the late 16th century, are similar, but entirely timber-built, whereas the tower type was built of durable brick ...Missing: spread America
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A Liberties Landmark: St Patrick's Tower | News | The Liberties Dublin
St Patrick's Tower was originally built as a 'smock' windmill around 1757. Smock windmills are so-called because their sloping, horizontally weather-boarded ...
[50]
Upminster Windmill
Upminster Windmill was built for James Nokes, a local farmer, in 1803. It is a Grade II* listed building and in terms of quality, completeness and significanceWhat's On · Volunteer · Live · Hire
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Impington Mill, Histon, Cambridgeshire. A 2-storey, hexagonal white ...
A 2-storey, hexagonal white smock mill on a 3-storey brick base, with ogee cap. Built in 1776 on the base of a 17th century post mill and raised on the tower ...<|separator|>
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Saving Britain's Windmills: From Ruin to Restoration
Jan 3, 2025 · In 1931, the Society for the Protection of Ancient Buildings (SPAB) formed a special Mills Section to campaign for preservation and restoration.Missing: operational | Show results with:operational
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About the Mills Section | The SPAB
The SPAB Mills Section is the UK's national organisation for protecting and promoting traditional windmills and watermills.
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and those around tring chapter xv. windmills in literature in prose
The Anglo-French writer Hilaire Belloc actually owned a working smock mill; Shipley Mill in Sussex formed part of an estate that he bought in 1905. Belloc ...<|separator|>
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History of Wind Power - Illinois Windmills
Although it is unknown when, exactly, windmills were first used in China, their first written record was around the 13th century. The windmills there were ...
[56]
Discover Corwith Windmill History - Water Mill Museum
Historians believe the mill, a smock windmill purchased from Mr. Howell of Hog's Neck for $750, had one pair of stones. When it was reconstructed in Water Mill ...
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[PDF] The Beebe windmill - Town of Southampton
a smock mill with a stone foundation and four-story tower, the Beebe windmill is particularly significant for its cast iron gearing and its fantail. The gearing.Missing: Old Vermont
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Historic smock-style windmill in Orient, CA - Facebook
Aug 3, 2025 · The windmills found on Long Island were constructed in the “smock mill” style, so-called because their skirted design resembled a baker's smock.What makes a windmill a smock mill? I ask because in my humble ...What are the characteristics of historic windmills in Suffolk County?More results from www.facebook.com
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Windmill a witness to island's history - The Jamestown Press
Aug 5, 2010 · Because the windmill has a fancied resemblance to a countryman's linen smock, it is known as a “smock mill.” The smock was a common accoutrement ...
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Windmills of Canada
Hykaway Grist Mill: smock mill : Originally built c1910 at Fraserwood, moved to a museum in the 1970's, and restored. [homepage] [photo] [info].
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List of windmills in Canada - Wikipedia
Name of mill, Type, Built, Notes, Photograph. Calgary, Bruderheim Windmill, Smock, 1920, Located in Heritage Park Historical Village open-air museum. Edmonton ...
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Society for the Preservation of Old Mills: Home
Information on our organization members, histories, and our programs that foster an appreciation of “mills” and their preservation as historical places.Old Mill News · About Us · History · Mill Rosters
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Who We Are - THE OLD MILL FOUNDATION
The Old Mill Foundation's over-arching purpose is to maintain, preserve and operate The Old Mill. As a part of that mission, the OMF develops and creates many ...